91 research outputs found
Primordial Non-Gaussian Signatures in the Sky
The presence of non-Gaussian features in the CMB radiation maps represents
one of the most long-awaited clues in the search for the actual structure of
the primordial radiation. These features could shed some light on the non
trivial task of distinguishing the real source of the primeval perturbations
leading to large scale structure. In the present paper we briefly review recent
work towards finding analytical estimates of the three- and four-point
correlation functions and of their zero-lag limits, namely, the skewness and
kurtosis, respectively. - Contributed talk to appear in the proceedings of
"Birth of the Universe & Fundamental Physics", May 18-21, 1994, Rome, Italy.Comment: 4pp; PostScript fil
Superconducting Cosmic Strings
These relics from the early universe could be the answer to many astrophysical conundrums
The Three--Point Correlation Function of the Cosmic Microwave Background in Inflationary Models
We analyze the temperature three--point correlation function and the skewness
of the Cosmic Microwave Background (CMB), providing general relations in terms
of multipole coefficients. We then focus on applications to large angular scale
anisotropies, such as those measured by the {\em COBE} DMR, calculating the
contribution to these quantities from primordial, inflation generated, scalar
perturbations, via the Sachs--Wolfe effect. Using the techniques of stochastic
inflation we are able to provide a {\it universal} expression for the ensemble
averaged three--point function and for the corresponding skewness, which
accounts for all primordial second--order effects. These general expressions
would moreover apply to any situation where the bispectrum of the primordial
gravitational potential has a {\em hierarchical} form. Our results are then
specialized to a number of relevant models: power--law inflation driven by an
exponential potential, chaotic inflation with a quartic and quadratic potential
and a particular case of hybrid inflation. In all these cases non--Gaussian
effects are small: as an example, the {\em mean} skewness is much smaller than
the cosmic {\em rms} skewness implied by a Gaussian temperature fluctuation
field.Comment: 18 pages; LaTeX; 4 PostScript figures included at the end of the
file; SISSA REF.193/93/A and DFPD 93/A/8
Is the cosmic microwave background really non-Gaussian?
Two recent papers have claimed detection of non-Gaussian features in the COBE
DMR sky maps of the cosmic microwave background. We confirm these results, but
argue that Gaussianity is still not convincingly ruled out. Since a score of
non-Gaussianity tests have now been published, one might expect some mildly
significant results even by chance. Moreover, in the case of one measure which
yields a detection, a bispectrum statistic, we find that if the non-Gaussian
feature is real, it may well be due to detector noise rather than a
non-Gaussian sky signal, since a signal-to-noise analysis localizes it to
angular scales smaller than the beam. We study its spatial origin in case it is
nonetheless due to a sky signal (eg, a cosmic string wake or flat-spectrum
foreground contaminant). It appears highly localized in the direction b=39.5,
l=257, since removing a mere 5 pixels inside a single COBE beam area centered
there makes the effect statistically insignificant. We also test Guassianity
with an eigenmode analysis which allows a sky map to be treated as a random
number generator. A battery of tests of this generator all yield results
consistent with Gaussianity.Comment: Revised to match accepted ApJL version. 4 pages with 2 figs included.
Links and color fig at http://www.sns.ias.edu/~max/gaussianity_frames.html or
from [email protected]
The Tomárâho conception of the sky
The small community of the Tomárâho, an ethnic group culturally derived from the Zamucos, have become known in the South American and world anthropological scenario in recent times. This group, far from the banks of the Paraguay river, remained concealed from organized modern societies for many years. Like any other groups of people in close contact with nature, the Tomárâho developed a profound and rich world-view which parallels other more widely researched aboriginal cultures as well as showing distinctive features of their own. This is also apparent in their imagery of the sky and of the characters that are closely connected with the celestial sphere. This paper is based on the lengthy anthropological studies of G. Sequera. We have recently undertaken a project to carry out a detailed analysis of the different astronomical elements present in the imagined sky of the Tomárâho and other Chamacoco ethnic groups. We will briefly review some aspects of this aboriginal culture: places where they live, regions of influence in the past, their linguistic family, their living habits and how the advancement of civilization affected their culture and survival. We will later mention the fieldwork carried out for decades and some of the existing studies and publications. We will also make a brief description of the methodology of this work and special anthropological practices. Last but not least, we will focus on the Tomárâho conception of the sky and describe the research work we have been doing in recent times. © International Astronomical Union 2011.Fil:Gangui, A. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina
Cosmic microwave background bispectrum and slow roll inflation
Recent tentative findings of non-Gaussian structure in the COBE-DMR dataset have triggered renewed attention to candidate models from which such intrinsic signature could arise. In the framework of slow roll inflation with built-in non linearities in the inflaton field evolution we present expressions for both the cosmic microwave background (CMB) skewness and the full angular bispectrum in terms of the slow roll parameters. We use an estimator for the angular bispectrum recently proposed in the literature and calculate its variance for an arbitrary multipole combination. We stress that a real detection of non-Gaussianity in the CMB would imply that an important component of the anisotropies arises from processes {\it other} than primordial quantum fluctuations. We further investigate the behavior of the signal-to-(theoretical) noise ratio and demonstrate for generic inflationary models that it decreases in the limited range of small-'s considered for increasing multipole while the opposite applies for the standard 's
Doppler peaks: a fingerprint of topological defects
The fluctuations in the cosmic microwave background (CMB) on large angular scales (> few degrees) are caused by perturbations in the gravitational field via the Sachs--Wolfe effect. On intermediate scales, 0.1^\circ\lsim\theta\lsim 2^\circ, the dominant contribution is due to coherent oscillations in the baryon radiation plasma before recombination. Unless the universe is reionized at some redshift z>50, these oscillations lead to the `Doppler peaks' in the angular power spectrum. In structure formation scenarios based on inflation the position of the first peak is typically at \ell\sim 200, with a height which is 4 -- 6 times that of the Sachs--Wolfe `plateau'. Here we present a corresponding study for perturbations induced by global textures. We find that the first Doppler peak is reduced to an amplitude comparable to that of the Sachs--Wolfe contribution, and that it is shifted to \ell\sim 350. We believe that our analysis can be easily extended to other types of global topological defects and general global scalar fields
CMB Bispectrum from Active Models of Structure Formation
We propose a new method for the numerical computation of the angular bispectrum of the CMB anisotropies arising from active models such as cosmic topological defects, using a modified Boltzmann code. The method, similarly to CMBFAST, does not use CMB sky maps and requires moderate computational power. As a first implementation, we apply our method to a recently proposed model of simulated cosmic strings and find that the observability of the non-Gaussian signal is negligible
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